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CARBIOS and Landbell Group: Collaboration for biorecycling plant (c) Landbell Group / CARBIOS
01.03.2024

CARBIOS and Landbell Group: Collaboration for biorecycling plant

CARBIOS and Landbell Group, a global operator of more than 40 producer responsibility organizations (PROs) and a provider of closed-loop recycling solutions, announce the signing of a non-binding Memorandum of Understanding for the sourcing, preparation and recycling of post-consumer PET waste using CARBIOS’ biorecycling technology at its first commercial plant in Longlaville from 2026.  

The partnership will leverage Landbell Group’s expertise and network in the sourcing of PET packaging and textile waste which will be prepared for biorecycling. Thanks to CARBIOS’ highly selective enzyme, less sorting and washing is required compared to current recycling technologies, offering future savings in energy and water use. From 2026, Landbell Group will supply CARBIOS with 15 kt/year of PET flakes, ensuring a steady supply chain for sustainable PET production. These flakes will serve as essential feedstock for CARBIOS’ production of food-grade PTA and MEG, further re-polymerized into PET.

CARBIOS and Landbell Group, a global operator of more than 40 producer responsibility organizations (PROs) and a provider of closed-loop recycling solutions, announce the signing of a non-binding Memorandum of Understanding for the sourcing, preparation and recycling of post-consumer PET waste using CARBIOS’ biorecycling technology at its first commercial plant in Longlaville from 2026.  

The partnership will leverage Landbell Group’s expertise and network in the sourcing of PET packaging and textile waste which will be prepared for biorecycling. Thanks to CARBIOS’ highly selective enzyme, less sorting and washing is required compared to current recycling technologies, offering future savings in energy and water use. From 2026, Landbell Group will supply CARBIOS with 15 kt/year of PET flakes, ensuring a steady supply chain for sustainable PET production. These flakes will serve as essential feedstock for CARBIOS’ production of food-grade PTA and MEG, further re-polymerized into PET.

Through the partnership with Landbell Group in Germany, the supply of multilayer trays through the CITEO tender in France  and the MoU with Indorama Ventures, CARBIOS will have sourced over 70% of its feedstock required for the 50kt/year capacity when its first commercial plant in Longlaville, France, will operate at full capacity. Close to the borders with Belgium, Germany and Luxembourg, the plant’s location is strategic for nearby waste supplies.

Through this partnership with CARBIOS, Landbell Group will ensure that the problematic PET fractions such as multilayered, colored and opaque trays from packaging waste and polyester textile waste are redirected towards recycling. In this way, Landbell Group strengthens its commitment to the development of recycling solutions to enable a circular economy.

20.12.2023

CARBIOS: €1.2M to further optimize its PET depolymerization process

CARBIOS, a pioneer in the development and industrialization of biological technologies to reinvent the life cycle of plastic and textiles, has received an initial payment of €1.2 million from the French Agency for Ecological Transition (ADEME) for the OPTI-ZYME research project, carried out in partnership with INRAE2, INSA3 and CNRS4 via the TWB5 joint service and TBI6 research units, a project co-funded by the French State as part of France 2030 operated by ADEME. With CARBIOS' aim to optimize and continuously improve its unique enzymatic PET depolymerization technology, the 4-year7 OPTI-ZYME project aims to investigate the scientific and technical levers for improving the competitiveness of the process, optimizing the necessary investments and reducing its environmental footprint.

CARBIOS, a pioneer in the development and industrialization of biological technologies to reinvent the life cycle of plastic and textiles, has received an initial payment of €1.2 million from the French Agency for Ecological Transition (ADEME) for the OPTI-ZYME research project, carried out in partnership with INRAE2, INSA3 and CNRS4 via the TWB5 joint service and TBI6 research units, a project co-funded by the French State as part of France 2030 operated by ADEME. With CARBIOS' aim to optimize and continuously improve its unique enzymatic PET depolymerization technology, the 4-year7 OPTI-ZYME project aims to investigate the scientific and technical levers for improving the competitiveness of the process, optimizing the necessary investments and reducing its environmental footprint.

This collaborative R&D program focuses on the technical and economic optimization of process stages, while preserving the quality of the monomers obtained. These optimizations, new developments and the exploration of innovative solutions should enhance the technology's flexibility with regards to incoming waste. Raw materials could come from different sources that are currently rarely or not recycled, notably food trays and textiles, or a mix of incoming materials. It also aims to limit input and water consumption, as well as regenerate or reduce co-products and ultimate residual waste. Finally, it seeks to support enzyme optimization to maximize the process’ economic profitability and competitiveness.

The project therefore aims to achieve an overall improvement in performance, combining efficiency, quality and environmental sustainability, to benefit the Longlaville plant which is currently under construction, and future licensed plants.

In May 2023, CARBIOS, the project leader and coordinator, announced that it had been awarded a total of €11.4M in funding by the French State as part of France 2030, operated by ADEME, including €8.2M directly for CARBIOS (€3.2M in grants and €5M in repayable advances) and €3.2M for its academic partners INRAE, INSA and CNRS (via the TWB mixed service and TBI research units). This funding, which is made up of grants and repayable advances, will be paid out in several instalments over the course of the project, including an initial instalment of 15%, equivalent to €1.2 million, received by CARBIOS on 5 December 2023. The first Monitoring Committee with ADEME for the first key stage of the project will be held in February 2024 to validate the granting of the second instalment of funding.

This project 2282D0513-A is funded by the French State as part of France 2030 operated by ADEME.

Source:

Carbios

Carbios and L’Oréal win Pioneer Award for PET recycling solution Photo: Carbios
Emmanuel Ladent (CEO Carbios, on the left) and Jacques Playe (Packaging and Development Director at L’Oréal, on the right)
15.11.2023

Carbios and L’Oréal win Pioneer Award for PET recycling solution

Carbios and L’Oréal have won the “Pioneer Awards” in the Industry category, presented by the Solar Impulse Foundation at the first World Alliance Summit. This prize was awarded to Carbios for its enzymatic PET recycling solution, labeled “Efficient Solution” by the Solar Impulse Foundation since 2019, and to L’Oréal for using this technology for the first time in a cosmetics bottle prototype. Carbios’ solution offers brands an alternative to petro-sourced plastic that helps them meet their sustainability commitments. This advancement paves the way for future applications in other sectors such as packaging, food and beverage, and textiles.

Carbios and L’Oréal have won the “Pioneer Awards” in the Industry category, presented by the Solar Impulse Foundation at the first World Alliance Summit. This prize was awarded to Carbios for its enzymatic PET recycling solution, labeled “Efficient Solution” by the Solar Impulse Foundation since 2019, and to L’Oréal for using this technology for the first time in a cosmetics bottle prototype. Carbios’ solution offers brands an alternative to petro-sourced plastic that helps them meet their sustainability commitments. This advancement paves the way for future applications in other sectors such as packaging, food and beverage, and textiles.

Carbios and L’Oréal: a long-term collaboration
Since 2017, Carbios and L’Oréal have been working together with a shared vision of accelerating the transition to a circular economy for plastic. In 2017, both companies created a Consortium to improve the recyclability and circularity of PET packaging.  Nestlé Waters, PepsiCo and Suntory Beverage & Food Europe joined this Consortium in 2019 to scale up Carbios’ innovation. The world’s first enzymatically recycled PET packaging was made in 2021 using Carbios’ biorecycling process. The world’s first PET biorecycling plant is scheduled to be commissioned in 2025. In parallel, Carbios is rolling out its technology internationally through licensing agreements.

The environmental benefits of biorecycling developed by Carbios
Recent life-cycle analyses[1] show a 57% reduction in CO2 emissions compared with the production of virgin plastic[2], and for every tonne of recycled PET produced, 1.3 tonnes of petrol are avoided. Compared with conventional recycling, enzymatic recycling is 4 times more circular (calculated according to the Ellen MacArthur Foundation’s Material Circularity Indicator). Thanks to its highly selective enzyme, optimized for efficient PET degradation, Carbios’ depolymerization process can process all types of PET waste, including colored, multilayer or textile waste that cannot be recycled using current technologies. Furthermore, the two monomers produced (PTA and MEG) make it possible to recreate recycled PET products of identical quality to virgin ones, and suitable for food contact.
 
 
[1] Database ecoinvent 3.8
[2] French scenario, taking into account the detour of 50% of PET waste from conventional end-of-life. Virgin PET: 2.53 kg CO2/kg (cradle to gate)

Source:

Carbios

Carbios: Polyester recycling with new textile preparation line (c) Carbios
04.10.2023

Carbios: Polyester recycling with new textile preparation line

Carbios inaugurated its textile preparation line at its demonstration plant in Clermont-Ferrand, in the presence of Mr. Lescure, French Minister for Industry. To streamline the textile preparation phase, which is currently carried out by hand or on several lines, Carbios has developed a fully integrated and automated line that transforms textile waste from used garments or cutting scraps into raw material suitable for depolymerization with its enzymatic biorecycling process. This patented line integrates all preparation stages (shredding and extraction of hard points such as buttons or fasteners), and provides Carbios with a high-performance, scalable development tool. The platform will help validate the biorecycling technology for textiles at demonstration plant scale (by 2024), and provides Carbios with expertise in working with collection and sorting operators to specify the quality of textiles and the preparation steps needed to make them suitable for enzymatic recycling. This expertise will also be invaluable to brands in the eco-design of their products.

Carbios inaugurated its textile preparation line at its demonstration plant in Clermont-Ferrand, in the presence of Mr. Lescure, French Minister for Industry. To streamline the textile preparation phase, which is currently carried out by hand or on several lines, Carbios has developed a fully integrated and automated line that transforms textile waste from used garments or cutting scraps into raw material suitable for depolymerization with its enzymatic biorecycling process. This patented line integrates all preparation stages (shredding and extraction of hard points such as buttons or fasteners), and provides Carbios with a high-performance, scalable development tool. The platform will help validate the biorecycling technology for textiles at demonstration plant scale (by 2024), and provides Carbios with expertise in working with collection and sorting operators to specify the quality of textiles and the preparation steps needed to make them suitable for enzymatic recycling. This expertise will also be invaluable to brands in the eco-design of their products.

Current collection, sorting and preparation infrastructures limit the amount of textile waste available for “fiber-to-fiber” recycling. Collection rates average around 15-25% worldwide[1], and much of the waste collected is exported to Africa, Asia or Latin America for sorting.

Moreover, textiles are highly complex materials, with yarns of different composition (or nature) that are difficult, if not impossible, to physically separate. However, the highly selective enzyme developed by Carbios can specifically depolymerize the PET (polyester) present in textile material.

At present, textiles are sorted and prepared mainly by hand, with low yields, particularly for disruptors to recycling processes such as “hard points” (zips, buttons, etc.). To optimize this crucial phase, Carbios is contributing a textile preparation solution to accelerate the development of biorecycling in the textile industry. Enzymatic recycling, or biorecycling, therefore contributes to the construction of a textile recycling chain and the acceleration of textile circularity, also enabling brands to do away with used bottles.

[1] Ellen MacArthur Foundation, 2017

Source:

Carbios

02.06.2023

Carbios receives funding for PET biorecycling plant and R&D activities

Carbios will receive grants totaling €54 million from French State via France 2030 and Grand-Est Region to finance construction of world’s first PET biorecycling plant and accelerate R&D activities

Carbios announces that its project has been selected by the French State for funding of €30 million from the French State as part of the investment plan France 2030, and €12.5 million from the Grand-Est Region.  The implementation of this funding is conditional to the European Commission’s approval of the corresponding state aid scheme, followed by the conclusion of national aid agreements. As part of the national call for projects on “Plastics Recycling” operated by ADEME[1], Carbios’ project to finalize the industrialization of its unique PET biorecycling process has been selected. The reference plant in Longlaville in the Grand-Est region will be the world’s first PET biorecycling plant and is due for commissioning in 2025. This plant will make it possible to relocate to France the production of the two basic components of PET, PTA and MEG[2], both derived from the Carbios process.

Carbios will receive grants totaling €54 million from French State via France 2030 and Grand-Est Region to finance construction of world’s first PET biorecycling plant and accelerate R&D activities

Carbios announces that its project has been selected by the French State for funding of €30 million from the French State as part of the investment plan France 2030, and €12.5 million from the Grand-Est Region.  The implementation of this funding is conditional to the European Commission’s approval of the corresponding state aid scheme, followed by the conclusion of national aid agreements. As part of the national call for projects on “Plastics Recycling” operated by ADEME[1], Carbios’ project to finalize the industrialization of its unique PET biorecycling process has been selected. The reference plant in Longlaville in the Grand-Est region will be the world’s first PET biorecycling plant and is due for commissioning in 2025. This plant will make it possible to relocate to France the production of the two basic components of PET, PTA and MEG[2], both derived from the Carbios process.

Carbios also announces that it has been granted total funding of €11.4 million from the French State as part of France 2030, of which €8.2 million directly for Carbios (€5 million in repayable advances) and €3.2 million for its academic partners INRAE[3], INSA[4] and CNRS[5] via the TWB[6] and TBI[7] joint service and research units. This funding will enable to continue its research into the optimization and continuous improvement of Carbios’ enzymatic technologies.

The plant will secure the sales of the first volumes of recycled PET produced with Carbios’ technology, and to offer its partners recycled PET of the same quality as virgin PET. Once the necessary permits have been obtained, which should be granted by the end of 2023, in line with the announced start of construction before the end of the year, the plant is scheduled to be commissioned in 2025. This will be followed by a period of ramp-up to full capacity. The plant will have a nominal processing capacity of 50,000 tonnes of PET waste per year, equivalent to 2 billion bottles or 2.5 billion food trays.

Selection for funding by the French State through France 2030 and the Grand-Est Region complements the recent announcement of an exclusive, long-term partnership with Novozymes[8], a leader in enzyme production, one of the main aims is to ensure the supply of enzymes to Carbios’ Longlaville plant and future licensed plants. In addition, Carbios recently secured a first supply source for its future plant by winning part of the CITEO tender for the biorecycling of multilayer trays[9].


[1] The French Agency for Ecological Transition
[2] PTA = purified terephthalic acid; MEG = monoethylene glycol
[3] French National Research Institute for Agriculture, Food and the Environment
[4] French National Institute of Applied Sciences
[5] French National Center for Scientific Research
[6] Toulouse White Biotechnology – UMS INRAE 1337 / UAR CNRS 3582
[7] Toulouse Biotechnology Institute – UMR INSA/CNRS 5504 / UMR INSA/INRAE 792
[8] Cf. press release dated 12 January 2023
[9] Cf. press release published by Citeo dated 26 April 2023

More information:
Carbios biorecycling plastics France
Source:

Carbios

24.03.2023

Carbios: Scientific publication on enzymatic degradation of plastics

Carbios announces the publication of an article entitled “Enzymes’ power for plastics degradation” in Chemical Reviews. The article is a comprehensive and critical review of research published to date on the enzymatic degradation of all types of plastics (PET, PLA, polyolefins, polyurethanes, polyamides) and includes almost 700 references. Co-authored by biotechnology researchers from Carbios and its academic partner Toulouse Biotechnology Institute (TBI), as well as two eminent professors in polymer science from the University of Bordeaux, the work brings together expertise in the fields of enzymology, polymer science and industry in order to accelerate the transition to a circular economy for plastic.

Beyond the comprehensive bibliographical study, the authors analyzed the data to discuss the scope, limitations, challenges and opportunities of enzymatic plastic recycling with a view to developing innovations and industrial processes. The article’s standpoint and added value with regard to issues surrounding plastic pollution is its critical view on technology transfer and industrial scalability.

Carbios announces the publication of an article entitled “Enzymes’ power for plastics degradation” in Chemical Reviews. The article is a comprehensive and critical review of research published to date on the enzymatic degradation of all types of plastics (PET, PLA, polyolefins, polyurethanes, polyamides) and includes almost 700 references. Co-authored by biotechnology researchers from Carbios and its academic partner Toulouse Biotechnology Institute (TBI), as well as two eminent professors in polymer science from the University of Bordeaux, the work brings together expertise in the fields of enzymology, polymer science and industry in order to accelerate the transition to a circular economy for plastic.

Beyond the comprehensive bibliographical study, the authors analyzed the data to discuss the scope, limitations, challenges and opportunities of enzymatic plastic recycling with a view to developing innovations and industrial processes. The article’s standpoint and added value with regard to issues surrounding plastic pollution is its critical view on technology transfer and industrial scalability.

To read the article in Chemical Reviews, click here.

Source:

Carbios

Graphic Carbios
02.03.2023

Carbios doubles number of granted patents in two years

  • At end 2022, Carbios has 336 titles worldwide divided into 53 patent families for its innovation in enzymatic recycling of PET plastics and fibers, and its PLA biodegradation technology
  • Carbios’ team of Intellectual Property experts is dedicated to protecting its innovations

 
Carbios has doubled its number of issued patents since the last review published at the end of 2020. Carbios (and its subsidiary Carbiolice) currently holds 336 titles worldwide divided into 53 patent families.  In 2022, several titles protecting the proprietary PET-degrading enzymes were granted in countries of interest such as the United States and also in Asian countries including Indonesia, South Korea, China, Japan and India.  Carbios has also obtained grants within its patent families protecting the biodegradable plastics production process, notably the masterbatch containing the enzyme or its production process.
 
Carbios is expanding its intellectual property portfolio in regions and countries where there is strong demand for its disruptive technologies, notably :

  • At end 2022, Carbios has 336 titles worldwide divided into 53 patent families for its innovation in enzymatic recycling of PET plastics and fibers, and its PLA biodegradation technology
  • Carbios’ team of Intellectual Property experts is dedicated to protecting its innovations

 
Carbios has doubled its number of issued patents since the last review published at the end of 2020. Carbios (and its subsidiary Carbiolice) currently holds 336 titles worldwide divided into 53 patent families.  In 2022, several titles protecting the proprietary PET-degrading enzymes were granted in countries of interest such as the United States and also in Asian countries including Indonesia, South Korea, China, Japan and India.  Carbios has also obtained grants within its patent families protecting the biodegradable plastics production process, notably the masterbatch containing the enzyme or its production process.
 
Carbios is expanding its intellectual property portfolio in regions and countries where there is strong demand for its disruptive technologies, notably :

  • in Europe: 40 European titles, which could be granted in the 39 member states of the European Patent Organization
  • in North America: 41 titles in the United States and 23 in Canada
  • in Asia: 152 titles, including 37 in China, 27 in Japan and 24 in India

Carbios also has 14 patent applications that may be extended to other countries or regions of the world in the coming years.

“Over the past two years, we have mainly focused on strengthening the protection of our PET biorecycling process and its proprietary enzymes,” commented Lise LUCCHESI, Director of Intellectual Property at Carbios. “For the coming years, we will continue to consolidate the protection of this process, and that of our PLA biodegradation process, by filing new patent applications. We will also actively follow up on our filed patent applications in order to obtain granted patents.”
 
“Since the beginning of Carbios, the R&D and Intellectual Property departments have worked hand in hand to ensure maximum protection of our enzymes and processes,” commented Alain Marty, Chief Scientific Officer at Carbios.  “These continued efforts to obtain extensive international protection are crucial to safeguard our innovations and ensure the industrial deployment of our technologies.”

 

Photo: Carbios
13.01.2023

Carbios and Novozymes deepen collaboration in biorecycling of PET

Carbios and Novozymes announced an exclusive long-term global strategic partnership. This major agreement ensures the long-term production and supply of Carbios’ proprietary PET-degrading enzymes at an industrial scale for the world’s first biological PET-recycling plant due to start production in 2025 in Longlaville (France), as well as Carbios’ future licensee customers.
 
Carbios and Novozymes have had a partnership since 2019 to develop enzyme-based solutions and address  the sustainability challenge of plastic pollution, both within PET-recycling[1] and PLA-biodegradation[2].  Building on the current Joint Development Agreement (JDA), under the new agreement, Carbios and Novozymes will extend their collaboration to develop, optimize and produce enzymes that will subsequently be supplied by Novozymes to all licensees of Carbios’ technology.  The new agreement grants both parties exclusivity in the field of the partnership.
 

Carbios and Novozymes announced an exclusive long-term global strategic partnership. This major agreement ensures the long-term production and supply of Carbios’ proprietary PET-degrading enzymes at an industrial scale for the world’s first biological PET-recycling plant due to start production in 2025 in Longlaville (France), as well as Carbios’ future licensee customers.
 
Carbios and Novozymes have had a partnership since 2019 to develop enzyme-based solutions and address  the sustainability challenge of plastic pollution, both within PET-recycling[1] and PLA-biodegradation[2].  Building on the current Joint Development Agreement (JDA), under the new agreement, Carbios and Novozymes will extend their collaboration to develop, optimize and produce enzymes that will subsequently be supplied by Novozymes to all licensees of Carbios’ technology.  The new agreement grants both parties exclusivity in the field of the partnership.
 
The strategic partnership supports the large-scale industrial deployment of Carbios’ patented PET-recycling technology starting with Carbios’ future industrial reference unit in Longlaville (France), which will be the world’s first biological PET-recycling plant. Construction will begin later this year, and both building and operating permits having been filed with local authorities.  Production at the plant is set to start in 2025 and the processing capacity will be 50,000 tonnes of waste per year.

Source:

Carbios

(c) Carbios
20.10.2022

Carbios publishes results of consumer research study about plastic circularity

  • Carbios’ biorecycling and biodegradation technologies internationally recognized by consumers as promising answers to their top environmental concerns
  • Carbios’ innovations considered one of the best for solving recycling effectively and achieving a real plastic circularity
  • Consumer research including qualitative and quantitative fields was conducted between March and August 2022. The research institute, Strategic Research, conducted 6000 interviews in Europe and USA

Carbios’ biorecycling and biodegradation technologies acclaimed by consumers
During the first research field study, respondents were exposed to Carbios’ biorecycling process; a new enzyme-based biotechnology that enables biological recycling of all types of PET plastic waste (including bottles, packaging and textiles), and pushes the boundaries of recycling in terms of the number of cycles.

  • Carbios’ biorecycling and biodegradation technologies internationally recognized by consumers as promising answers to their top environmental concerns
  • Carbios’ innovations considered one of the best for solving recycling effectively and achieving a real plastic circularity
  • Consumer research including qualitative and quantitative fields was conducted between March and August 2022. The research institute, Strategic Research, conducted 6000 interviews in Europe and USA

Carbios’ biorecycling and biodegradation technologies acclaimed by consumers
During the first research field study, respondents were exposed to Carbios’ biorecycling process; a new enzyme-based biotechnology that enables biological recycling of all types of PET plastic waste (including bottles, packaging and textiles), and pushes the boundaries of recycling in terms of the number of cycles.

The research results demonstrated that European and US respondents find Carbios’ biorecycling technology more unique and innovative than traditional PET recycling (i.e. thermo-mechanical recycling), as well as more relevant in its ability to address their concerns and challenges regarding recycling.

In the second research study, conducted in the US, respondents were also exposed to Carbios’ biodegradation technology: an innovative enzymatic solution by which an enzyme is incorporated into plastics during the production process of bio-sourced PLA plastics (corn, sugar cane). This approach makes the material made from plants 100% compostable at ambient temperatures and degradable like plants with the built-in enzyme biologically breaking the bioplastic down in less than eight weeks without microplastics or toxic residues; creating a fully organic circularity.

Similarly to Carbios’ biorecycling technology, Carbios’ PLA biodegradation innovation caught US respondents’ attention with 64% overall liking it. Additionally, 93% of the respondents sampled described the concept as innovative, unique, easy to understand (49%), and believable (43%). Up to 82% of the most environmentally engaged respondents declared they would definitely buy more products made with Carbios’ fully circular biodegradable bioplastic.

Consumers: No other choice but to make plastic fully circular
The research says 99% of the respondents consider it important to protect the environment, while plastic pollution is now ranked the third most-concerning environmental issues after climate change and ocean pollution.

This awareness brings most of these consumers to be environmentally active when it comes to purchasing goods and sorting. For the US respondents, eco-friendly packaging comes in the fourth place in terms of purchase drivers for packaged goods and 65% of them declare sorting plastic from general waste on a regular basis, which makes plastic the most sorted type of waste.

Nevertheless, for a vast majority of the respondents across geographies, even if they would like to reduce their plastic consumption most of the time there is no suitable alternative that is as convenient, light, and cost-efficient as plastics. Hence in an ideal world, consumers would like all plastic waste in landfills and oceans to be collected, cleaned, reused and recycled.

More information:
Carbios study circularity plastics
Source:

Carbios

09.08.2022

Carbios joined WhiteCycle to process and recycle plastic textile waste

  • An innovative European project to process and recycle plastic textile waste
  • A partnership to reach the objectives set by the European Union in reducing CO2 emissions by 2030
  • A unique consortium rallying 16 public and private European organizations working together for more circular economy

Carbios joined WhiteCycle, a project coordinated by Michelin, which was launched in July 2022. Its main goal is to develop a circular solution to convert complex[1] waste containing textile made of plastic into products with high added value. Co-funded by Horizon Europe, the European Union’s research and innovation program, this unprecedented public/private European partnership includes 16 organizations and will run for four years.
 

  • An innovative European project to process and recycle plastic textile waste
  • A partnership to reach the objectives set by the European Union in reducing CO2 emissions by 2030
  • A unique consortium rallying 16 public and private European organizations working together for more circular economy

Carbios joined WhiteCycle, a project coordinated by Michelin, which was launched in July 2022. Its main goal is to develop a circular solution to convert complex[1] waste containing textile made of plastic into products with high added value. Co-funded by Horizon Europe, the European Union’s research and innovation program, this unprecedented public/private European partnership includes 16 organizations and will run for four years.
 
WhiteCycle envisions that by 2030 the uptake and deployment of its circular solution will lead to the annual recycling of more than 2 million tons of the third most widely used plastic in the world, PET[2]. This project should prevent landfilling or incineration of more than 1.8 million tons of that plastic each year. Also, it should enable reduction of CO2 emissions by around 2 million tons.
 
Complex waste containing textile (PET) from end-of-life tyres, hoses and multilayer clothes are currently difficult to recycle, but could soon become recyclable thanks to the project outcomes. Raw material from PET plastic waste could go back into creation of high-performance products, through a circular and viable value chain.
 
Public and private European organizations are combining their scientific and industrial expertises:

  • industrial partners (Michelin, Mandals, KORDSA);
  • cross-sector partnership (Inditex)
  • waste management companies (Synergies TLC, ESTATO);
  • intelligent monitoring systems for sorting (IRIS);
  • biological recycling SME (Carbios);
  • product life cycle analysis company (IPOINT);
  • university, expert in FAIR data management (HVL);
  • universities, research and technology organizations (PPRIME – Université de Poitiers/CNRS, DITF, IFTH, ERASME);
  • industry cluster (Axelera);
  • project management consulting company (Dynergie).

 
The consortium will develop new processes required throughout the industrial value chain:

  • Innovative sorting technologies, to enable significant increase of the PET plastic content of complex waste streams in order to better process them;
  • A pre-treatment for recuperated PET plastic content, followed by a breakthrough recycling enzyme-based process to decompose it into pure monomers in a sustainable way;
  • Repolymerization of the recycled monomers into like new plastic;
  • Fabrication and quality verification of the new products made of recycled plastic materials

 
WhiteCycle has a global budget of nearly 9.6 million euros and receives European funding in the amount of nearly 7.1 million euros. The consortium’s partners are based in five countries (France, Spain, Germany, Norway and Turkey). Coordinated by Michelin, it has an effective governance system involving a steering committee, an advisory board and a technical support committee.

[1] Complex waste: multi materials waste (Rubber goods composites and multi-layer textile)
[2] PET: Polyethylene terephthalate

Source:

Carbios

25.07.2022

Carbios: Strengthening its leadership in the biorecycling of plastics and textiles

  • Exceptional achievement of research work on the use of Nuclear Magnetic Resonance (NMR) spectroscopy for understanding PET depolymerization enzymes

Carbios (Euronext Growth Paris: ALCRB), a pioneer in the development of enzymatic solutions dedicated to the end-of-life of plastic and textile polymers, announces the publication of an article entitled “An NMR look at an engineered PET depolymerase” in the scientific journal Biophysical Journal.

The article describes the use of Nuclear Magnetic Resonance (NMR) spectroscopy to study the thermal stability of PET depolymerization enzymes and the mechanism of adsorption of the enzyme on the polymer. This innovative approach, which required months of development, is a world first and opens up new ways of improving these enzymes. This publication confirms Carbios' international lead in the development of the most efficient enzymes for the depolymerization and recycling of plastics.

  • Exceptional achievement of research work on the use of Nuclear Magnetic Resonance (NMR) spectroscopy for understanding PET depolymerization enzymes

Carbios (Euronext Growth Paris: ALCRB), a pioneer in the development of enzymatic solutions dedicated to the end-of-life of plastic and textile polymers, announces the publication of an article entitled “An NMR look at an engineered PET depolymerase” in the scientific journal Biophysical Journal.

The article describes the use of Nuclear Magnetic Resonance (NMR) spectroscopy to study the thermal stability of PET depolymerization enzymes and the mechanism of adsorption of the enzyme on the polymer. This innovative approach, which required months of development, is a world first and opens up new ways of improving these enzymes. This publication confirms Carbios' international lead in the development of the most efficient enzymes for the depolymerization and recycling of plastics.

Prof. Alain Marty, Chief Scientific Officer of Carbios and co-author of the article, explains: “ Nearly 25 researchers are currently working on our unique enzymatic technology. It is based on academic collaborations with the world's leading experts in their fields..”

Dr. Guy Lippens, CNRS Research Director and co-author of the artcle, adds: “Nuclear Magnetic Resonance (NMR) is an extraordinary biophysical technique for visualizing an enzyme directly in solution. Our study is the first to use NMR as a complementary technique to crystallography and molecular modeling to observe a PETase. This gives new perspectives to better understand the functioning of these enzymes and it makes it possible to imagine new ways of improving these enzymes. ”

More information:
Carbios de-polymerization
Source:

Carbios

07.07.2022

Carbios, On, Patagonia, PUMA and Salomon team up to advance circularity

Carbios has signed an agreement with On, Patagonia, PUMA, and Salomon, to develop solutions that will enhance the recyclability and circularity of their products.
 
An important element of the two-year deal will be to speed up the introduction of Carbios’ biorecycling technology, which constitutes a breakthrough for the textile industry. Carbios and the four companies will also research how products can be recycled, develop solutions to take-back worn polyester items, including sorting and dismantling technologies, and gather data on fiber-to-fiber recycling as well as circularity models.
 
The challenge the four brands share, is that their ambitious sustainable development goals can only partially be met by conventional recycling technologies which mostly target bottle-to-fiber recycling. Future regulations will require more circularity in packaging and textile. Yet the market consensus is that there will soon be a shortage of PET bottles, as they will be used for circular production methods in the Food & Beverage Industry.   
 

Carbios has signed an agreement with On, Patagonia, PUMA, and Salomon, to develop solutions that will enhance the recyclability and circularity of their products.
 
An important element of the two-year deal will be to speed up the introduction of Carbios’ biorecycling technology, which constitutes a breakthrough for the textile industry. Carbios and the four companies will also research how products can be recycled, develop solutions to take-back worn polyester items, including sorting and dismantling technologies, and gather data on fiber-to-fiber recycling as well as circularity models.
 
The challenge the four brands share, is that their ambitious sustainable development goals can only partially be met by conventional recycling technologies which mostly target bottle-to-fiber recycling. Future regulations will require more circularity in packaging and textile. Yet the market consensus is that there will soon be a shortage of PET bottles, as they will be used for circular production methods in the Food & Beverage Industry.   
 
Carbios’ innovative process constitutes a technological breakthrough for the recycling of polyester (PET) fibers, which are widely used in apparel, footwear and sportswear, on their own or together with other fibers. PET polyester is the most important fiber for the textile industry with 52 MT produced, even surpassing cotton at 23MT. The biorecycling process uses an enzyme capable of selectively extracting the polyester, recovering it to recreate a virgin fiber. This revolutionary technology makes it possible to recover the PET polyester present in all textile waste that cannot be recycled using traditional technologies.
 
PET plastics and fibers are used to make everyday consumer goods such as bottles, packaging and textiles. Today, most PET is produced from fossil resources, then used and discarded according to a wasteful linear model. By creating a circular economy from used plastics and fibers, Carbios’ biorecycling technology offers a sustainable and more responsible solution.

More information:
Carbios PET circularity
Source:

Carbios

(c) Officina39
08.06.2022

Offina39 attends Denimsandjeans India

  • Officina39’s Trustainable™ collection FW 23: key innovation highlights.
  • The Trustainable™ collection FW 23 presents SMART 03 and Aqualess Fade

Officina39 is attending the fourth edition of Denimsandjeans India in Bangalore (8-9 June 2022). As the show displays the GREENABLE (green and comfortable) aspects of denim, Officina39 did want to have missed the opportunity to show its latest technologies included in the Trustainable™collection FW23.

For Officina39, “Trustainable” is a term that expresses the company’s approach based on honesty, transparency and social responsibility: this attitude once again characterizes the technologies that
have given shape to the Trustainable™ collection FW 23.

The latest technological addition to the line is represented by the new Ozone Booster SMART 03, which assures more final bluish indigo shades than the other boosters on the market, activating the
reaction of Ozone on indigo without any strong oxidizing agent. Better results, less aggressive bleaching.

  • Officina39’s Trustainable™ collection FW 23: key innovation highlights.
  • The Trustainable™ collection FW 23 presents SMART 03 and Aqualess Fade

Officina39 is attending the fourth edition of Denimsandjeans India in Bangalore (8-9 June 2022). As the show displays the GREENABLE (green and comfortable) aspects of denim, Officina39 did want to have missed the opportunity to show its latest technologies included in the Trustainable™collection FW23.

For Officina39, “Trustainable” is a term that expresses the company’s approach based on honesty, transparency and social responsibility: this attitude once again characterizes the technologies that
have given shape to the Trustainable™ collection FW 23.

The latest technological addition to the line is represented by the new Ozone Booster SMART 03, which assures more final bluish indigo shades than the other boosters on the market, activating the
reaction of Ozone on indigo without any strong oxidizing agent. Better results, less aggressive bleaching.

The new collection also marks the debut of Aqualess Fade, a technology that recreates the bleaching effect of chlorine on fabrics, a waterless special compound for the discoloration of denim on indigo/black garments which reduces resource consumption and environmental impact.

This newest innovation completes and integrates Aqualess Mission, a combination of technologies that allows garment laundry processes to reduce 75% of the water use. Until now, the process included three eco-friendly technologies: Novascraper Indigo, a laser finishing technique that adds a natural, vintage look to denim garments; OZ-ONE Powder, an advanced product to give garments a bleached yet eco-friendly treatment, for a worn and distressed look; and Aqualess Aged, a waterless compound to give denim abrasion effects. Specifically, this last revolutionizing product has recently marked an important achievement which adds to the company’s sustainable credentials: Officina39 in fact stands out as the first and only player to receive, for its Aqualess Aged, the DeniSafe® certification of enzyme product(s) by Novozymes for safe production and safe use through dry application.

More information:
Officina+39 Officina39
Source:

Officina39

(c) Officina39
10.05.2022

Officina39 returns to Bangladesh Denim Expo with latest sustainable developments

Officina39 will attend the Bangladesh Denim Expo in Dhaka on 10-11 May, a new edition after a two-year break, characterized by a focus on sustainability and the central theme "Beyond Business".

Officina39 has been committed for years to the reconversion of the sector’s technologies to an environmental point of view: this attitude is expressed in its latest Trustainable™ collection FW 23, based on the approach of honesty, transparency and social responsibility that drives the company. Officina39 will present Aqualess Fade, a technology just recently presented at Kingpins that recreates the bleaching effect of chlorine on fabrics, a waterless special compound for the discoloration of denim on indigo/black garments which is reducing resource consumption and environmental impact.

Officina39 will attend the Bangladesh Denim Expo in Dhaka on 10-11 May, a new edition after a two-year break, characterized by a focus on sustainability and the central theme "Beyond Business".

Officina39 has been committed for years to the reconversion of the sector’s technologies to an environmental point of view: this attitude is expressed in its latest Trustainable™ collection FW 23, based on the approach of honesty, transparency and social responsibility that drives the company. Officina39 will present Aqualess Fade, a technology just recently presented at Kingpins that recreates the bleaching effect of chlorine on fabrics, a waterless special compound for the discoloration of denim on indigo/black garments which is reducing resource consumption and environmental impact.

Aqualess Fade completes and integrates Aqualess Mission, a combination of technologies that allows garment laundry processes to reduce 75% of the water use. Until now, the process included three eco-friendly technologies: Novascraper Indigo, a laser finishing technique that adds a natural, vintage look to denim garments; OZ-ONE Powder, an advanced product to give garments a bleached yet eco-friendly treatment, for a worn and distressed look; and Aqualess Aged, a waterless compound to give denim abrasion effects. Specifically, this last revolutionizing product has recently marked an important achievement which adds to the company’s sustainable credentials: Officina39 received, for its Aqualess Aged, the DeniSafe® certification of enzyme product(s) by Novozymes for safe production and safe use through dry application.

Bangladesh Denim Expo is also ideal for presenting the results of The Circle Book 2, the second chapter of a collective project gathering ten high-profile players of the textile supply chain. Officina39’s Recycrom™ technology and the expertise of Meidea, Lenzing, Tejidos Rojo, Calik Denim, Ribbontex, Spring85, Dr. Bock Industries, Crafil and RGT have merged together on the development of CULTURE.IN, a circular capsule collection transparently made from recycled and degradable materials: a practical demonstration of how the fashion industry can improve considering social and environmental impacts and goals.

Source:

Officina39 / Menabò Group srl

Hochschule Niederrhein: Textilpreis (c) Constantin Ranke
Von links: Prof. Dr. Wolfgang Kleinebrink, Professorin Dr. Maike Rabe, Preisträgerin Christine Kluth, Preisträger Leon Blanckart, Professorin Ellen Bendt und Dekan Prof. Dr. Lutz Vossebein.
18.11.2020

Hochschule Niederrhein: Preise für Abschlussarbeiten zu Grünalgen und Enzymen

Das Thema Nachhaltigkeit spielt in der Textilwirtschaft schon seit Jahren eine herausragende Rolle. Dies spiegelt sich auch in den diesjährigen Ehrungen für die besten Bachelor- und Masterarbeiten am Fachbereich Textil- und Bekleidungstechnik der Hochschule Niederrhein wieder.

Leon Blanckart hat sich in Kooperation mit dem Institut für Pflanzenwissenschaften und Mikrobiologie der Universität Hamburg mit einer speziellen von ihm erstmalig untersuchten Süßwasseralgenart auseinandergesetzt, die er durch eigens entwickelte Verfahren so aufbereitet hat, dass eine textile Nutzung möglich ist. Betreuerin der Arbeit war Professorin Ellen Bendt.

Christine Kluth untersuchte in einer Kooperation zwischen der Hochschule Niederrhein, zwei Textilunternehmen und der Universität für Bodenkultur Wien dazu einerseits die Kinetik neuartiger Enzyme aus der Gruppe der Polyesterasen beim Abbau von Polyester und andererseits die dabei entstehenden Abbauprodukte. Die Betreuung der Arbeit wurde von Prof. Dr. Maike Rabe übernommen.

Das Thema Nachhaltigkeit spielt in der Textilwirtschaft schon seit Jahren eine herausragende Rolle. Dies spiegelt sich auch in den diesjährigen Ehrungen für die besten Bachelor- und Masterarbeiten am Fachbereich Textil- und Bekleidungstechnik der Hochschule Niederrhein wieder.

Leon Blanckart hat sich in Kooperation mit dem Institut für Pflanzenwissenschaften und Mikrobiologie der Universität Hamburg mit einer speziellen von ihm erstmalig untersuchten Süßwasseralgenart auseinandergesetzt, die er durch eigens entwickelte Verfahren so aufbereitet hat, dass eine textile Nutzung möglich ist. Betreuerin der Arbeit war Professorin Ellen Bendt.

Christine Kluth untersuchte in einer Kooperation zwischen der Hochschule Niederrhein, zwei Textilunternehmen und der Universität für Bodenkultur Wien dazu einerseits die Kinetik neuartiger Enzyme aus der Gruppe der Polyesterasen beim Abbau von Polyester und andererseits die dabei entstehenden Abbauprodukte. Die Betreuung der Arbeit wurde von Prof. Dr. Maike Rabe übernommen.

Source:

Hochschule Niederrhein

(c) Hochschule Niederrhein
17.09.2020

Hochschule Niederrhein: Mit Enzymen Polyester-Stoffe nachhaltiger bearbeiten

Textilien aus Polyester begegnen uns im Alltag überall: beim Sport, im Auto, im Bett. Die Kunstfasern aus Polyester fühlen sich leicht und weich an, sind atmungsaktiv und trocknen schnell. Das Problem: „Polyester nimmt Feuchtigkeit nicht gut auf. Viele Hersteller wünschen sich hydrophilere Fasern, also Polyester, der Feuchtigkeit stärker anzieht und Baumwoll-ähnliche Eigenschaften aufweist“, erklärt Sabrina Kolbe, Wissenschaftlerin am Forschungsinstitut für Textil und Bekleidung der Hochschule Niederrhein.

Sie ist Mitarbeiterin im internationalen Forschungsprojekt „EnzyPol – Verbesserte Oberflächenfunktionalität durch enzymatische Behandlung von biobasierten und konventionellen Polyestern“. Darin erforscht sie gemeinsam mit Kolleginnen und Kollegen in Mönchengladbach und in Österreich, wie mit Hilfe von Enzymen die Hydrophilie von Polyester erhöht werden kann.

Textilien aus Polyester begegnen uns im Alltag überall: beim Sport, im Auto, im Bett. Die Kunstfasern aus Polyester fühlen sich leicht und weich an, sind atmungsaktiv und trocknen schnell. Das Problem: „Polyester nimmt Feuchtigkeit nicht gut auf. Viele Hersteller wünschen sich hydrophilere Fasern, also Polyester, der Feuchtigkeit stärker anzieht und Baumwoll-ähnliche Eigenschaften aufweist“, erklärt Sabrina Kolbe, Wissenschaftlerin am Forschungsinstitut für Textil und Bekleidung der Hochschule Niederrhein.

Sie ist Mitarbeiterin im internationalen Forschungsprojekt „EnzyPol – Verbesserte Oberflächenfunktionalität durch enzymatische Behandlung von biobasierten und konventionellen Polyestern“. Darin erforscht sie gemeinsam mit Kolleginnen und Kollegen in Mönchengladbach und in Österreich, wie mit Hilfe von Enzymen die Hydrophilie von Polyester erhöht werden kann.

Enzyme, also Eiweißmoleküle, sind Teil vieler biotechnologischer Prozesse. Weil sie auf natürliche Weise Produkte veredeln oder als Katalysator Produktionsprozesse beschleunigen können, sind sie für viele Industriebereiche unverzichtbar. „Man kann heute schon Polyester so bearbeiten, dass er hydrophiler wird – aber dabei sind viele Chemikalien im Einsatz. Auch Mikroplastik ist ein Problem, das etwa beim Waschen von Kleidung aus bearbeitetem Polyester in den Wasserkreislauf gerät. Der Einsatz von – wiederverwertbaren – Enzymen auf der Polyester-Oberfläche ist also auch im Sinne der Nachhaltigkeit“, erklärt Sabrina Kolbe.

Welche Enzyme sich für die Bearbeitung des Polyesters eignen, untersuchen in diesem transnationalen „CORNET“-Forschungsprojekt („Collective Research Network“) Wissenschaftler der Universitäten Wien und Innsbruck. „Polyester ist ein künstlicher Stoff und kommt so in der Umwelt nicht vor. Doch es gibt Mikroorganismen, die sich bereits an das immense Vorkommen von Polyester angepasst haben und dieses aufspalten können“, sagt Kolbe. „Beispielsweise wurden Mikroorganismen auf PET-Flaschen gefunden.“ Zudem können die Wissenschaftler entsprechende Enzyme wie etwa Polyesterase auch modifizieren, damit sie Polyesterfasern entsprechend schnell „bearbeiten“.

Ein weiterer Schwerpunkt des Projekts „EnzyPol“ wird die Frage sein, an welcher Stelle im textilen Produktionsprozess die Enzyme zum Einsatz kommen. „Es wäre möglich, ganz am Anfang die Fasern entsprechend zu bearbeiten – oder später das fertige Produkt, also beispielsweise ein Shirt“, sagt Sabrina Kolbe. Das CORNET-Projekt läuft über zwei Jahre und hat ein Gesamtvolumen von 633.570 Euro.

Source:

Hochschule Niederrhein